1 ------------------------------------------------------------------------------
3 -- GNAT COMPILER COMPONENTS --
9 -- Copyright (C) 1992-2018, Free Software Foundation, Inc. --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING3. If not, go to --
19 -- http://www.gnu.org/licenses for a complete copy of the license. --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
24 ------------------------------------------------------------------------------
28 Enclosing_Body_Or_Block
: Node_Id
;
29 -- Innermost enclosing body or block statement
31 Label_Decl_Node
: Node_Id
;
32 -- Implicit label declaration node
34 Defining_Ident_Node
: Node_Id
;
35 -- Defining identifier node for implicit label declaration
37 Next_Label_Elmt
: Elmt_Id
;
38 -- Next element on label element list
41 -- Next label node to process
43 function Find_Enclosing_Body_Or_Block
(N
: Node_Id
) return Node_Id
;
44 -- Find the innermost body or block that encloses N
46 function Find_Enclosing_Body
(N
: Node_Id
) return Node_Id
;
47 -- Find the innermost body that encloses N
49 procedure Check_Distinct_Labels
;
50 -- Checks the rule in RM-5.1(11), which requires distinct identifiers
51 -- for all the labels in a given body.
53 procedure Find_Natural_Loops
;
54 -- Recognizes loops created by backward gotos, and rewrites the
55 -- corresponding statements into a proper loop, for optimization
56 -- purposes (for example, to control reclaiming local storage).
58 ---------------------------
59 -- Check_Distinct_Labels --
60 ---------------------------
62 procedure Check_Distinct_Labels
is
63 Label_Id
: constant Node_Id
:= Identifier
(Label_Node
);
65 Enclosing_Body
: constant Node_Id
:=
66 Find_Enclosing_Body
(Enclosing_Body_Or_Block
);
67 -- Innermost enclosing body
69 Next_Other_Label_Elmt
: Elmt_Id
:= First_Elmt
(Label_List
);
70 -- Next element on label element list
72 Other_Label
: Node_Id
;
73 -- Next label node to process
76 -- Loop through all the labels, and if we find some other label
77 -- (i.e. not Label_Node) that has the same identifier,
78 -- and whose innermost enclosing body is the same,
79 -- then we have an error.
81 -- Note that in the worst case, this is quadratic in the number
82 -- of labels. However, labels are not all that common, and this
83 -- is only called for explicit labels.
85 -- ???Nonetheless, the efficiency could be improved. For example,
86 -- call Labl for each body, rather than once per compilation.
88 while Present
(Next_Other_Label_Elmt
) loop
89 Other_Label
:= Node
(Next_Other_Label_Elmt
);
91 exit when Label_Node
= Other_Label
;
93 if Chars
(Label_Id
) = Chars
(Identifier
(Other_Label
))
94 and then Enclosing_Body
= Find_Enclosing_Body
(Other_Label
)
96 Error_Msg_Sloc
:= Sloc
(Other_Label
);
97 Error_Msg_N
("& conflicts with label#", Label_Id
);
101 Next_Elmt
(Next_Other_Label_Elmt
);
103 end Check_Distinct_Labels
;
105 -------------------------
106 -- Find_Enclosing_Body --
107 -------------------------
109 function Find_Enclosing_Body
(N
: Node_Id
) return Node_Id
is
110 Result
: Node_Id
:= N
;
113 -- This is the same as Find_Enclosing_Body_Or_Block, except
114 -- that we skip block statements and accept statements, instead
115 -- of stopping at them.
117 while Present
(Result
)
118 and then Nkind
(Result
) /= N_Entry_Body
119 and then Nkind
(Result
) /= N_Task_Body
120 and then Nkind
(Result
) /= N_Package_Body
121 and then Nkind
(Result
) /= N_Subprogram_Body
123 Result
:= Parent
(Result
);
127 end Find_Enclosing_Body
;
129 ----------------------------------
130 -- Find_Enclosing_Body_Or_Block --
131 ----------------------------------
133 function Find_Enclosing_Body_Or_Block
(N
: Node_Id
) return Node_Id
is
134 Result
: Node_Id
:= Parent
(N
);
137 -- Climb up the parent chain until we find a body or block
139 while Present
(Result
)
140 and then Nkind
(Result
) /= N_Accept_Statement
141 and then Nkind
(Result
) /= N_Entry_Body
142 and then Nkind
(Result
) /= N_Task_Body
143 and then Nkind
(Result
) /= N_Package_Body
144 and then Nkind
(Result
) /= N_Subprogram_Body
145 and then Nkind
(Result
) /= N_Block_Statement
147 Result
:= Parent
(Result
);
151 end Find_Enclosing_Body_Or_Block
;
153 ------------------------
154 -- Find_Natural_Loops --
155 ------------------------
157 procedure Find_Natural_Loops
is
158 Node_List
: constant Elist_Id
:= New_Elmt_List
;
162 function Goto_Id
(Goto_Node
: Node_Id
) return Name_Id
;
163 -- Find Name_Id of goto statement, which may be an expanded name
166 (Label_Node
: Node_Id
;
167 Goto_Node
: Node_Id
) return Boolean;
168 -- A label and a goto are candidates for a loop if the names match,
169 -- and both nodes appear in the same body. In addition, both must
170 -- appear in the same statement list. If they are not in the same
171 -- statement list, the goto is from within an nested structure, and
172 -- the label is not a header. We ignore the case where the goto is
173 -- within a conditional structure, and capture only infinite loops.
176 -- Merge labels and goto statements in order of increasing sloc value.
177 -- Discard labels of loop and block statements.
179 procedure No_Header
(N
: Elmt_Id
);
180 -- The label N is known not to be a loop header. Scan forward and
181 -- remove all subsequent gotos that may have this node as a target.
183 procedure Process_Goto
(N
: Elmt_Id
);
184 -- N is a forward jump. Scan forward and remove all subsequent gotos
185 -- that may have the same target, to preclude spurious loops.
187 procedure Rewrite_As_Loop
188 (Loop_Header
: Node_Id
;
190 -- Given a label and a backwards goto, rewrite intervening statements
191 -- as a loop. Remove the label from the node list, and rewrite the
192 -- goto with the body of the new loop.
194 procedure Try_Loop
(N
: Elmt_Id
);
195 -- N is a label that may be a loop header. Scan forward to find some
196 -- backwards goto with which to make a loop. Do nothing if there is
197 -- an intervening label that is not part of a loop, or more than one
198 -- goto with this target.
204 function Goto_Id
(Goto_Node
: Node_Id
) return Name_Id
is
206 if Nkind
(Name
(Goto_Node
)) = N_Identifier
then
207 return Chars
(Name
(Goto_Node
));
209 elsif Nkind
(Name
(Goto_Node
)) = N_Selected_Component
then
210 return Chars
(Selector_Name
(Name
(Goto_Node
)));
213 -- In case of error, return Id that can't match anything
224 (Label_Node
: Node_Id
;
225 Goto_Node
: Node_Id
) return Boolean
228 return Chars
(Identifier
(Label_Node
)) = Goto_Id
(Goto_Node
)
229 and then Find_Enclosing_Body
(Label_Node
) =
230 Find_Enclosing_Body
(Goto_Node
);
242 L1
:= First_Elmt
(Label_List
);
243 G1
:= First_Elmt
(Goto_List
);
246 and then Present
(G1
)
248 if Sloc
(Node
(L1
)) < Sloc
(Node
(G1
)) then
250 -- Optimization: remove labels of loops and blocks, which
251 -- play no role in what follows.
253 if Nkind
(Node
(L1
)) /= N_Loop_Statement
254 and then Nkind
(Node
(L1
)) /= N_Block_Statement
256 Append_Elmt
(Node
(L1
), Node_List
);
262 Append_Elmt
(Node
(G1
), Node_List
);
267 while Present
(L1
) loop
268 Append_Elmt
(Node
(L1
), Node_List
);
272 while Present
(G1
) loop
273 Append_Elmt
(Node
(G1
), Node_List
);
282 procedure No_Header
(N
: Elmt_Id
) is
287 while Present
(S1
) loop
288 S2
:= Next_Elmt
(S1
);
289 if Nkind
(Node
(S1
)) = N_Goto_Statement
290 and then Matches
(Node
(N
), Node
(S1
))
292 Remove_Elmt
(Node_List
, S1
);
303 procedure Process_Goto
(N
: Elmt_Id
) is
304 Goto1
: constant Node_Id
:= Node
(N
);
311 while Present
(S
) loop
315 if Nkind
(Goto2
) = N_Goto_Statement
316 and then Goto_Id
(Goto1
) = Goto_Id
(Goto2
)
317 and then Find_Enclosing_Body
(Goto1
) =
318 Find_Enclosing_Body
(Goto2
)
321 -- Goto2 may have the same target, remove it from
324 Remove_Elmt
(Node_List
, S
);
331 ---------------------
332 -- Rewrite_As_Loop --
333 ---------------------
335 procedure Rewrite_As_Loop
336 (Loop_Header
: Node_Id
;
339 Loop_Body
: constant List_Id
:= New_List
;
340 Loop_Stmt
: constant Node_Id
:=
341 New_Node
(N_Loop_Statement
, Sloc
(Loop_Header
));
346 Stat
:= Next
(Loop_Header
);
347 while Stat
/= Loop_End
loop
348 Next_Stat
:= Next
(Stat
);
350 Append
(Stat
, Loop_Body
);
354 Set_Statements
(Loop_Stmt
, Loop_Body
);
355 Set_Identifier
(Loop_Stmt
, Identifier
(Loop_Header
));
357 Remove
(Loop_Header
);
358 Rewrite
(Loop_End
, Loop_Stmt
);
360 ("info: code between label and backwards goto rewritten as loop??",
368 procedure Try_Loop
(N
: Elmt_Id
) is
370 Found
: Boolean := False;
375 while Present
(S1
) loop
376 if Nkind
(Node
(S1
)) = N_Goto_Statement
377 and then Matches
(Node
(N
), Node
(S1
))
381 -- If the label and the goto are both in the same statement
382 -- list, then we've found a loop. Note that labels and goto
383 -- statements are always part of some list, so In_Same_List
384 -- always makes sense.
386 if In_Same_List
(Node
(N
), Node
(S1
)) then
390 -- The goto is within some nested structure
398 -- More than one goto with the same target
404 elsif Nkind
(Node
(S1
)) = N_Label
407 -- Intervening label before possible end of loop. Current
408 -- label is not a candidate. This is conservative, because
409 -- the label might not be the target of any jumps, but not
410 -- worth dealing with useless labels.
416 -- If the node is a loop_statement, it corresponds to a
417 -- label-goto pair rewritten as a loop. Continue forward scan.
426 Rewrite_As_Loop
(Node
(N
), Node
(Source
));
427 Remove_Elmt
(Node_List
, N
);
428 Remove_Elmt
(Node_List
, Source
);
433 -- Start of processing for Find_Natural_Loops
437 N
:= First_Elmt
(Node_List
);
438 while Present
(N
) loop
439 Succ
:= Next_Elmt
(N
);
441 if Nkind
(Node
(N
)) = N_Label
then
445 elsif Nkind
(Node
(Succ
)) = N_Label
then
448 -- If a loop was found, the label has been removed, and
449 -- the following goto rewritten as the loop body.
451 Succ
:= Next_Elmt
(N
);
453 if Nkind
(Node
(Succ
)) = N_Label
then
455 -- Following label was not removed, so current label
456 -- is not a candidate header.
462 -- Following label was part of inner loop. Current
463 -- label is still a candidate.
466 Succ
:= Next_Elmt
(N
);
469 elsif Nkind
(Node
(Succ
)) = N_Goto_Statement
then
471 Succ
:= Next_Elmt
(N
);
474 elsif Nkind
(Node
(N
)) = N_Goto_Statement
then
476 Succ
:= Next_Elmt
(N
);
481 end Find_Natural_Loops
;
483 -- Start of processing for Par.Labl
486 Next_Label_Elmt
:= First_Elmt
(Label_List
);
487 while Present
(Next_Label_Elmt
) loop
488 Label_Node
:= Node
(Next_Label_Elmt
);
490 if not Comes_From_Source
(Label_Node
) then
494 -- Find the innermost enclosing body or block, which is where
495 -- we need to implicitly declare this label
497 Enclosing_Body_Or_Block
:= Find_Enclosing_Body_Or_Block
(Label_Node
);
499 -- If we didn't find a parent, then the label in question never got
500 -- hooked into a reasonable declarative part. This happens only in
501 -- error situations, and we simply ignore the entry (we aren't going
502 -- to get into the semantics in any case given the error).
504 if Present
(Enclosing_Body_Or_Block
) then
505 Check_Distinct_Labels
;
507 -- Now create the implicit label declaration node and its
508 -- corresponding defining identifier. Note that the defining
509 -- occurrence of a label is the implicit label declaration that
510 -- we are creating. The label itself is an applied occurrence.
513 New_Node
(N_Implicit_Label_Declaration
, Sloc
(Label_Node
));
514 Defining_Ident_Node
:=
515 New_Entity
(N_Defining_Identifier
, Sloc
(Identifier
(Label_Node
)));
516 Set_Chars
(Defining_Ident_Node
, Chars
(Identifier
(Label_Node
)));
517 Set_Defining_Identifier
(Label_Decl_Node
, Defining_Ident_Node
);
518 Set_Label_Construct
(Label_Decl_Node
, Label_Node
);
520 -- The following makes sure that Comes_From_Source is appropriately
521 -- set for the entity, depending on whether the label appeared in
522 -- the source explicitly or not.
524 Set_Comes_From_Source
525 (Defining_Ident_Node
, Comes_From_Source
(Identifier
(Label_Node
)));
527 -- Now attach the implicit label declaration to the appropriate
528 -- declarative region, creating a declaration list if none exists
530 if No
(Declarations
(Enclosing_Body_Or_Block
)) then
531 Set_Declarations
(Enclosing_Body_Or_Block
, New_List
);
534 Append
(Label_Decl_Node
, Declarations
(Enclosing_Body_Or_Block
));
538 Next_Elmt
(Next_Label_Elmt
);